Enabling advanced functionalities of Diamond and other ultra-hard materials by Integrated Pulsed Laser Ablation Technologies

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Enabling advanced functionalities of Diamond and other ultra-hard materials by Integrated Pulsed Laser Ablation Technologies

Control technologies

General description

https://en.wikipedia.org/wiki/Control_system

Control technologies will be further exploiting the increasing computational power and intelligence in order to come forward to the demands of increased speed and precision in manufacturing. Advanced control strategies will allow the use of lighter actuators and structural elements for obtaining very rigid and accurate solutions, replacing slower and more energy-intensive approaches. Learning controllers adapt the behaviour of systems to changing environments or system degradation, taking into account constraints and considering alternatives, hereby relying on robust industrial real-time communication technologies, system modelling approaches and distributed intelligence architectures.


Specifics for Project DIPLAT | Enabling advanced functionalities of Diamond and other ultra-hard materials by Integrated Pulsed Laser Ablation Technologies

Title Enabling advanced functionalities of Diamond and other ultra-hard materials by Integrated Pulsed Laser Ablation Technologies
Description development of advanced 3D processing strategies for structuring/conditioning of ultra-hard tool surfaces and superabrasive grain layers by Pulsed Laser Ablation; (3) Develop and implement a novel multi-axis control
Comments The laser processes developed in DIPLAT are highly energy efficient compared to conventional diamond processing technologies.
 Control technologies Taxon title Control technologies Taxon description https://en.wikipedia.org/wiki/Control_system Control technologies will be further exploiting the increasing computational
 Resource efficient, sustainable products Comments The laser processes developed in DIPLAT are highly energy efficient compared to conventional diamond processing technologies.
 Towards circular economy Comments The laser processes developed in DIPLAT are highly energy efficient compared to conventional diamond processing technologies.